DE102004021300A1 - Cooling fan with a guiding structure of the air flow - Google Patents

Abstract

A cooling fan includes a cover plate (10) having an air inlet (11) and a base (12), an impeller (20) attached to the base (12) and having a plurality of blades (21), and an air guide member (30). with an air passage (32) and an air outlet (33). A portion of the axial height of the corresponding blade (21) is received in the air passage (32) of the air guide member (30). Side inlets (34) are defined between the cover plate (10) and the air guide element (30). A suction of air occurs simultaneously in the air inlet (11) and the side inlets (34) when the impeller (20) rotates, whereby an air flow is driven so that it exits at the air outlet (33) in a predetermined direction.

Description

The The invention relates to a cooling fan with a management structure the air flow.

A typical conventional cooling fan is z. B. off US 5,522,700 . US 5,584,339 and US 5,582,506 known and includes a cover plate, an impeller and a cooling plate. The cover plate includes an air inlet and a base, wherein the impeller is mounted on an upper side or an underside of the cover plate. The cooling plate is attached to an object to be cooled, such as a central processing unit (CPU). In operation, the impeller causes air to be moved from the inlet to the cooling plate to dissipate heat.

The airflow However, can only in the extension direction of the cooling fins on the cooling plate outward move and the cooling effect can only through the cooling plate be achieved. The cooling fan could neither the airflow steer directly down and emit a cooling effect for a Create object that is located directly under the cooling fan. Furthermore, a blower unit, which includes a cover plate and an impeller, with a cooling plate be used. The application of the blower unit, which contains a cover plate and an impeller is limited and It is difficult to pay for to reduce the production of different types of blower wheels. Furthermore, the Amount of intake air can not be effectively increased because the impeller only Air over can initiate the air inlet of the cover plate. Furthermore, the Back pressure should not be increased. The result is the application possibility limited by the cooling fan and the cooling effect is low.

One another typical conventional Cooling fan, the z. As disclosed in Taiwanese Utility Model Publication No. 540641 is, is an axial fan, the one housing and an impeller contains. The fan wheel is rotatably mounted on a base, which on an air outlet side of the housing is provided. Extend at an air inlet side of the housing There are several radial inlets from an air inlet to a perimeter of the housing. A guide plate to improve the air yield extends from the corresponding Shovel on the impeller radially outward and is aligned with the corresponding radial inlet, whereby the amount of air taken in is increased.

The blower However, it must be at the base of the case be attached in such a way that the housing of a specific specification only with an impeller a corresponding specification can be used, which is a limited applicability of the housing and the blower wheel which results in no effective cost reduction for the Production of various types of cooling fans is achieved.

There the corresponding guide plates To improve the air yield, only control the air can, that it flows through the corresponding radial inlets, and as the air through the corresponding guide plates to improve the air yield is directed inwards and downwards, are further in a connection area between the circumference of corresponding radial inlet and an inner circumference of the housing turbulence generated. As a result, the provision of the guide plates for improvement the air yield wind noise result. The Axialströmungsgebläse could also do not increase the dynamic pressure. The applicability of the axial flow fan limited and the cooling fan is not satisfactory.

Of the The invention is therefore based on the object, the disadvantages mentioned to eliminate the prior art and a cooling fan with a guide structure the air flow to create the air flow directs and improves the overall cooling effect.

These The object is achieved by a cooling fan with a management structure the air flow according to claim 1. Further developments of the invention are specified in the dependent claims.

According to one Feature of the invention is a cooling fan with a management structure the air flow created in which a total area for the incoming air is enlarged, to increase the amount of air taken in and thus the overall cooling effect to improve.

According to one Feature of the invention is a cooling fan with a management structure the air flow created in which the dynamic pressure is increased and thus the overall cooling effect is improved.

According to one aspect of the invention, a cooling fan includes a cover plate having an air inlet and a base, an impeller attached to the base and having a plurality of blades, and an air guide member having an air passage and an air outlet. A portion of an axial height of the corresponding blade is in the air received passage of the air guide element. Between the cover plate and the air guide element side inlets are defined. The suction of air occurs simultaneously in the air inlet and in the side inlets as the impeller rotates, the airflow being controlled to exit the air outlet in a predetermined direction.

Further Features and advantages of the invention will become apparent upon reading the following description of preferred embodiments, referring to the drawings Refers; show it:

1 an exploded perspective view of a first embodiment of a cooling fan according to the invention;

2 a perspective view of the cooling fan of 1 ;

3 a sectional view taken along the plane 3-3 of 2 ;

4 an exploded perspective view of a second embodiment of the cooling fan according to the invention;

5 a perspective view of the cooling fan of 4 ;

6 a sectional view taken along the plane 6-6 of 5 ;

7 an exploded perspective view of a third embodiment of the cooling fan according to the invention;

8th a sectional view of the cooling fan of 7 ;

9 an exploded perspective view of a fourth embodiment of the cooling fan according to the invention;

10 a sectional view of the cooling fan of 9 ;

11 an exploded perspective view of a fifth embodiment of the cooling fan according to the invention; and

12 a sectional view of the cooling fan of 11 ,

In the 1 to 3 includes a first embodiment of a cooling fan according to the invention, a cover plate 10 , an impeller 20 and an air guide element 30 , The cover plate 10 is made of plastic or metal and contains an air inlet 11 and a base 12 which extends in a plane leading to another plane in which the air inlet 11 lies, runs parallel. Several ribs 13 Stand out from a perimeter that controls the air intake 11 limited, and connect to the base 12 , making the base 12 will be carried. The cover plate 10 also includes a first engagement portion 14 , In this embodiment, the first engagement portion includes 14 several through holes 14 ,

The fan wheel 20 is at a top of the base 12 that of the cover plate 10 facing, rotatably mounted. The fan wheel 20 and the cover plate 10 together form a blower unit 1 , The fan wheel 20 contains several blades at its outer periphery 21 to drive air. The air guide element 30 is made of plastic or metal and includes a second engagement portion 31 , an air outlet 32 , an air outlet 33 and several side inlets 34 , In this embodiment, the second engagement portion includes 31 several stands, each with a threaded hole 310 have, on the corresponding through hole 14 the cover plate 10 is aligned. A fastener 40 extends through the corresponding through hole 14 the cover plate 10 and the corresponding threaded hole 310 , whereby the cover plate 10 on the air guide element 30 is attached. As in 3 is a section of the axial height of the corresponding blade 21 the blower wheel 20 in the air passage 32 taken, being between the cover plate 10 and the air guide element 30 a space is defined that the side inlets 34 in the blower unit 1 forms. The air outlet 32 guides the air flow to the air outlet 33 , The air outlet 33 is aligned in a predetermined direction, for. B. the air guide element 30 straight down.

As in 3 is shown, the suction of air then takes place when the impeller 20 turns, at the same time in the air intake 11 and in the side inlets 34 through the operation of the blades 21 the blower wheel 20 , The air flow exits the cooling fan from a position directly under the air guide element 30 whereby heat of an object (e.g., a power supply or housing of a personal computer, not shown) is dissipated or air exchange occurs. Because extra air over the side inlets 34 through the fan wheel 20 is entered, the amount of intake air is increased. Furthermore, the air passage 32 of the air guide element 30 directing the outgoing air in a given direction, the direction of the air flow can be steered. Thus, the cooling effect is improved for an object to be cooled, which is arranged in a predetermined position. Furthermore, the first and second Eingriffabab cut 14 and 31 be varied as needed. The first and second engaging portions 14 and 31 can z. B. by snap connection, welding, gluing, etc. are brought into mutual engagement.

The 4 to 6 illustrate a second embodiment of the cooling fan according to the invention. In this embodiment, the cooling fan includes a cover plate 10 , an impeller 20 and an air guide element 30 , Several ribs 13 Stand by a perimeter that has an air intake 11 the cover plate limited, radially inward before and connect to a base 20 in the air intake 11 is arranged concentrically. The fan wheel 20 is also on an underside of the base 12 rotatably mounted. The fan wheel 20 and the cover plate 10 thus together form a suspended blower unit 1 , The first engagement section 14 the cover plate 10 Also includes a plurality of stands, each with a threaded hole 141 and the second engagement portion 31 of the air guide element 30 contains several through holes 31 , each on the threaded holes 141 are aligned. A fastening device 40 extends through the corresponding through hole 31 and the corresponding threaded hole 141 , A section of the axial height of the corresponding blade 21 the blower wheel 20 is in the air passage 32 taken, being between the cover plate 10 and the air guide element 30 a space is defined that the side inlets 34 in the blower unit 1 Are defined. The air outlet 32 guides the air flow to the air outlet 33 ,

As in 6 is shown, the suction of air then takes place when the impeller 20 turns, at the same time in the air intake 11 and in the side inlets 34 through the operation of the blades 21 the blower wheel 20 , The air outlet 32 of the air guide element 30 guides the flow of air in a given direction. The amount of air taken in is increased and the direction of the air flow can be directed. Thus, the cooling effect is improved for an object to be cooled, which is arranged in a predetermined position.

The 7 and 8th illustrate a third embodiment that is modified over the first embodiment. In this embodiment, the air passage tapers 32 of the air guide element 30 to the outside, so that a cross-sectional area of an air outlet side of the air passage 32 smaller than that of the air inlet side of the air passage 32 , As a result, the air flow is concentrated and the back pressure of the air flow is thus increased when the air flow through the air passage 32 runs and over the air outlet 34 exit. Furthermore, the blower unit 1 in the first embodiment or in the second embodiment with the air guide element 30 of the third embodiment. The application of the cooling fan is greater and the mounting tolerance is improved.

The 9 and 10 illustrate a fourth embodiment that is modified over the second embodiment. In this embodiment, the air passage extends 32 of the air guide element 30 in a direction at an angle with an air flow direction in which the air flows. When the fan wheel 20 turns, the suction of air takes place simultaneously in the air inlet 11 and in the side inlets 34 through the operation of the blades 21 the blower wheel 20 , The air flow can be directed to an object that is not located directly under the cooling fan, as the air passage 32 of the air guide element 30 the outgoing airflow can steer to the left (see 10 ). Further, the blower unit in the first embodiment or in the second embodiment may be provided with the air guide member 30 of the fourth embodiment. The application of the cooling fan is greater and the mounting tolerance is improved.

The 11 and 12 illustrate a fifth embodiment that is modified over the third embodiment. In this embodiment, the cover plate includes 10 several first stands 15 from a peripheral portion of the underside of the cover plate 10 project downwards and the air guide element 30 contains several second stands 35 extending from a peripheral portion of the top of the air guide element 30 project upwards. If the cover plate 10 and the air guide element 30 The first and second stands are assembled 15 and 35 in the corresponding side inlets 34 arranged, thereby preventing the impeller 20 bounces, the possibility of entry of foreign objects is reduced and the mechanical strength of the impeller 20 is improved. Furthermore, the ribs form the cover plate 10 several fixed blades 131 for directing the airflow. The corresponding fixed blade 131 may contain an angle of inclination similar to that of the blades 21 is opposite. This allows a uniform guidance of the air flow and increases the dynamic pressure.

The size of the side inlets 34 , the forms of the air outlet 32 of the air guide element 30 and the shovels 21 the blower wheel 20 and the engagement arrangement between the first and the second engagement portion 14 and 31 may vary according to the size, position, shape and cooling requirement of the object to be cooled. As a result, the design and assembly have greater flexibility.

Even though the principles of this invention in conjunction with specific embodiments were revealed, it should be for a specialist of course be that these descriptions do not limit the scope of the invention should and that any modification and variation, not of inventive idea of the invention, covered by the scope of this invention to be defined solely by the appended claims.

Claims (12)

Cooling fan characterized by a cover plate ( 10 ) with an air inlet ( 11 ) and a base ( 12 ); an impeller ( 20 ) at the base ( 12 ) and several blades ( 21 ) having; and an air guide element ( 30 ), which has an air passage ( 32 ) and an air outlet ( 33 ) contains; wherein a portion of an axial height of the corresponding blade ( 21 ) in the air passage ( 32 ) of the air guiding element ( 30 ) is included; with multiple page inlets ( 34 ) between the cover plate ( 10 ) and the air guide element ( 30 ), wherein a suction of air at the same time in the air inlet ( 11 ) and in the side entries ( 34 ) takes place when the impeller ( 20 ), whereby an air flow is driven, which at the air outlet ( 33 ) exits in a predetermined direction. Cooling fan according to claim 1, characterized in that the cover plate ( 10 ) a first engaging portion ( 14 ) and the air guide element ( 30 ) a second engagement portion ( 31 ), which at the first engagement section ( 14 ) is engaged. Cooling fan according to claim 2, characterized in that the engaging portion ( 14 ) several through holes ( 14 ) and the second engagement section ( 31 ) contains a plurality of stands, each having a threaded hole ( 310 ), which on the corresponding through hole ( 14 ) is aligned. Cooling fan according to claim 2, characterized in that the second engagement portion ( 31 ) several through holes ( 31 ) and the first engagement section ( 14 ) contains several stands, each of which has a threaded hole ( 141 ), which points to the corresponding through hole ( 31 ) is aligned. Cooling fan according to claim 1, characterized in that the impeller ( 20 ) on an upper side of the base ( 12 ) of the cover plate ( 10 ) is attached. Cooling fan according to claim 1, characterized in that the impeller ( 20 ) on an underside of the base ( 12 ) of the cover plate ( 10 ) is attached. Cooling fan according to claim 1, characterized in that a cross-sectional area of an air outlet side ( 33 ) of the air passage ( 32 ) is smaller than that of an air inlet side of the air passage ( 32 ). Cooling fan according to claim 1, characterized in that the air passage ( 32 ) extends in a direction at an angle to the air flow direction, whereby the air flow is directed in the predetermined direction. Cooling fan according to claim 1, characterized in that the cover plate ( 10 ) several stands ( 15 ), which from a peripheral portion of a bottom of the cover plate ( 10 ) projecting downwards, whereby the possibility of entry of foreign objects is reduced and the mechanical strength of the impeller ( 20 ) is improved. Cooling fan according to claim 1, characterized in that the air guiding elements ( 30 ) several stands ( 35 ), which from a peripheral portion of an upper side of the air guide element ( 30 ), which reduces the possibility of the entry of foreign objects and the mechanical strength of the impeller ( 20 ) is improved. Cooling fan according to claim 1, characterized by a plurality of ribs ( 13 ), the cover plate ( 10 ) with the base ( 12 ) connect. Cooling fan according to claim 11, characterized in that the ribs ( 13 ) several fixed blades ( 131 ) to direct the flow of air.